DE19533636A1 - Water atomising spray nozzle for fire protected premises - Google Patents

Abstract

The spray nozzle housing (1) contains a turbulence chamber (13) connected to the nozzle opening (5). The opening is tightly sealed by a seal (18,20) resting against the outside of the housing. The seal is pressed against the housing by a cylindrical, hollow pressure body (25) of glass or other material which is flexible at a release temperature. The end of the pressure body facing away from the seal is supported on the part joined to the housing. The pressure body is supported on an adjusting screw (28) or spring.

Description

The invention relates to a spray nozzle in the upper part handle of claim 1 mentioned type for fogging what in fire protection systems.

From the company brochure "Herzog Wasservernebelungs technik "from the company herzog-Wasservernebelungstechnik GmbH, 39387 Oschersleben, is a spray nozzle of the type concerned known, which has a swirl chamber in which narrow, helical channels that lead to a narrow, lead coaxial nozzle opening. Due to the helical Ka the water flowing through it is rotated. On the radial path inwards to the narrow, coaxial nozzles opening, the speed of rotation is increased considerably, so that the liquid exits from the nozzle opening the then effective centrifugal forces to a spray is torn apart.

This known spray nozzle is used in such a way that several spray nozzles over piping with one in common same shut-off valve are connected. The shut-off valve is via a pipeline that leads to the shut-off valve with un the pressurized water is filled with a water ver supply connected. The nozzle openings of the spray nozzles are unlocked. To a fire Determining an increase in the ambient temperature is one Hose line provided that is made of a thermoplastic Material exists and with a control pressure  Water is filled. The control pressure is one pressure monitored or the like, through which the shut-off valve can be controlled. Exceeds the ambient temperature a predetermined temperature due to a fire, so this leads to a burst of the hose line and thus to a drop in the control pressure in the hose line, so that the shut-off valve opens. Then it flows under Pressurized water through the piping to the spray nozzle and exits through the respective nozzle opening, whereby in front of the spray nozzles as described above Spray forms.

A disadvantage of the known spray nozzle is that the hose line, the control pressure in the hose line device monitoring pressure switch and that of the pressure switch controlled shut-off valve are complex and therefore expensive.

The hose line must pass through all fire risk Areas are relocated so that large areas can be monitored Rich large amounts of tubing are required. This is expensive and complex when laying the hose line. It in addition, temperature in the long hose line fluctuations can lead to a drop in pressure. Under the control pressure in the hose line advances given value, the shut-off valve opens without a fighting fire. Even with leaks that for water to escape from the hose line and a drop in the control pressure in the hose line there is a risk of false triggering. Such a mistake triggers result in unnecessary water damage.

After a fire, the entire hose line must be shut off exchanged and relocated. Then must go again start up the hose line with water the and be put under the control pressure. This is on agile and time consuming.

Since several spray nozzles have the same shut-off valve are bound, are also spray nozzles at a local fire  put into operation, removed from the fire site lie. This leads to unnecessary water damage.

The nozzle opening of the spray nozzle is always open, so that it can easily get dirty. This leads to a leg the function of the spray nozzle.

There are, for example from DE-OS 25 39 703, Sprin Kler nozzles are known in which in front of one in one Housing of the sprinkler nozzle formed an outlet Baffle plate is arranged, the bracket with the Ge Sprinkler nozzle housing is connected. At a center in the set screw is supported essentially cylindrical bursting body starting with its the outlet opening facing a sealing body, the tightly closes the outlet opening, in the sealing position holds. The supply lines are up to the sprinkler nozzles Filled with water.

In the event of a fire, the bursting body bursts when erected Chen a trigger temperature, so that the sealing body after is pushed away from the outside and a concentrated water jet is emitted emerges from the outlet opening and onto that in the beam area arranged baffle plate that hits the water jet laterally distributed. This creates water drops that are one size in size ben, which is not optimal for fire fighting and often fig leads to unnecessary water damage.

An essential difference between a spray nozzle of the type in question and a sprinkler nozzle is that with a sprinkler nozzle a baffle to the side Distribution of water is required while at a Spray nozzle a baffle is not required, but that Water exiting the nozzle opening to a spray torn open and distributed in this way.

The invention has for its object a spray nozzle se of the type concerned, the above mentioned Does not have parts that are simple in structure and therefore ko is inexpensively producible, with through for the fire  fighting not optimal drop sizes and false triggers caused unnecessary water damage are avoided and after a fire in a simple and time-saving manner is recoverable.

This object is achieved by the one specified in claim 1 Doctrine solved.

The basic idea of the teaching according to the invention is in basically starting from a spray nozzle and there with the fire fighting with a spray to exploit the mist favorable properties of the spray nozzle. Of the Another idea of the invention is the spray nozzle to be modified so that each spray nozzle has a sealing body points, which closes the nozzle opening tightly and by one at a release temperature yielding pressure body against the housing is pressed.

The pipes can thus go up to the spray nozzles be filled with water under pressure. When reached the trigger temperature as a result of a fire indicates pressure body after, so that he no longer against the sealing body the housing presses. The sealing body is under the pressure of the Water pushed outwards so that the nozzle opening is released and the water forms a spray bels emerges from the nozzle opening.

Each spray nozzle is thus separate from the others in Operation settable, so that only in the event of a local fire Nozzles are put into operation, in whose environment the tem temperature above a predetermined value due to the fire steps. Spray nozzles located away from the fire are therefore not put into operation, so that unnecessary What damage is avoided. One filled with water Hose line, a pressure switch and one of these controls shut-off valves are not required. So are Fire protection systems in which the spray nozzle according to the invention is used, simple in construction and therefore inexpensive producible.  

The fact that the sealing body, the nozzle opening Spray nozzle closes tightly, is a pollution of the nozzle Reliably avoid opening. Since the sealing body from on the outside of the housing is damage to the nozzle avoided opening.

After a fire, it is only necessary to Put the sealing body back on the housing and a new one Use pressure body, the sealing body against the Housing presses. Restoring is easy, ko inexpensive and time-saving possible.

According to a development of the invention, the Pressure body on a set screw. That way the force with which the pressure body against the sealing body the case presses, adjustable.

Instead of a set screw, the pressure body also support on a spring, of course, dimensioned in this way must be that the nozzle under all occurring Druckver in the feed line does not open, but only in the Fire. The spring has the advantage of a simple construction form. It can also compensate for manufacturing tolerances.

In the embodiment with the Set screw of the pressure body on the nozzle opening opposite end spherical or conical to the system on a preferably spherical indentation of the adjusting screw be. In this embodiment, the pressure is centered body when assembling the spray nozzle on the spherical inlet shaping the set screw. The assembly is thus unified fold.

The shape and size of the pressure body are wide zen selectable. However, the pressure body is expedient essentially cylindrical.

The pressure body is expediently made of Glass or the like existing hollow body formed the at least partially with a heat highly expanding or evaporating liquid, preferably  wise alcohol is filled. The for the production of the An materials required for the pressure body are inexpensive. It any liquids can be used. By selecting Liquids with suitable expansion properties the temperature at which the pressure element yields in set wide limits.

This is expediently connected to the housing Part of a bracket that extends from the housing of the nozzle opening stretching away. The bracket can be made as a narrow part forms, so that by the bracket only a small amount The extinguishing effect of the spray nozzle should not be significant harmful spray shadow is caused.

In this embodiment, the bracket can be made in one piece the housing. This embodiment is particularly easy and therefore inexpensive to manufacture.

Another development of the embodiment with the The bracket provides that this is formed by flat struts is whose radial cross section along the radial Aus spreading direction of the spray. With this out leadership form is a lead caused by the bracket bender spray shadow further reduced.

Another embodiment provides that the Pressure body on a detachably connected to the housing Supporting part supports. The support part can be clammy, for example be held on the housing.

The sealing body can expediently on its Side facing away from the nozzle opening away from the nozzle opening have an annular groove in which a sealing ring made of elastomeric Material is arranged. This embodiment is simple and therefore inexpensive to manufacture.

In this embodiment, the pressure body has expediently on its side facing away from the nozzle opening Side a centering pin coaxial to the ring groove, the protrudes into the nozzle opening. Centered during assembly the sealing body in the nozzle opening, so that a lateral  Slipping of the sealing body from the nozzle opening avoided is. The assembly is thus further simplified.

An extremely advantageous development of The teaching of the invention provides that the pressure body per on a support part detachably connected to the housing supports that the support part as a fork with two legs is formed, which are movable in the expansion direction, that the ends of the legs in a rest position radial front form-fitting jumps on the housing that spring means are provided, the legs in the spreading direction pretension and that the legs have projections, which engage behind the pressure body, such that the legs in the rest position are secured against spreading. At of this embodiment, the spread in the spreading direction tion biased leg of the support member when giving in of the pressure body so that the ends of the legs of the radial projections on the housing and that Support part detaches from the housing so that the area in front of the Spray nozzle free and thus any spray shadow avoided is.

A further development of this teaching provides that little least one of the legs of the support member is designed as a spring is det and so forms the spring means. By appropriate The choice of shape, size and material of the legs is the Prestressing of the legs in the rest position within wide limits selectable.

Appropriately exist in the aforementioned embodiment the legs are made of spring steel. This embodiment is easy and inexpensive to manufacture.

Another development of the embodiment with the designed as a fork support part provides that the front jumps the thighs by one each inwards extending tab are formed, each having a recess has, through which in the rest position of the pressure body extends.  

A further development of this embodiment provides that the tabs in the rest position in the direction of the nozzle axis are arranged at a distance from each other. That way Prevents lead from leaking when the pressure element gives in parts, for example remaining burst pieces a bursting body, in the recesses of the tabs fix and a movement of the legs and thus an up prevent the support from spreading. That way it is Reliability of the spray nozzle further improved.

A useful development of the aforementioned Ausfüh rungsform provides that at least one of the tabs one the other tab facing nose to secure an Ab has between the tabs.

Appropriately forms the tab with the Thigh part. This embodiment is simple and thus inexpensive to manufacture, because the tab is not a sepa rates, part to be connected to the leg.

Another development of the embodiments with the The spring and the legs made of spring steel provide that the Spring as one preferably with the resilient legs a piece of existing leaf spring is formed. These Embodiment is simple and inexpensive to manufacture.

The recess can be closed or open on the side his. A closed recess can, for example, by a hole may be formed in the tab. With one on the side open recess, the tab forms a hook that the Pressure body engages behind.

Another development of the embodiment with the Recesses provides that the recesses on her at System on the pressure body facing away from the pressure body Side are extended, in particular form an elongated hole. Due to the elongated holes, the risk is further reduced that remaining parts of the Pressure body settle in the recesses and one Prevent the tabs from moving away from each other.  

The protrusions on the housing can be through a collar be educated. Reach behind the legs of the support part the collar, so that the support member securely on the Housing is held.

A particularly advantageous development of the execution Form with the collar provides that the collar on his Has circumference two radial recesses that are diametrical opposite and their diametrical distance from diametra len distance from the free ends of the legs in the rest position corresponds. In this embodiment, when together build the spray nozzle first squeezed the legs and biased and against by inserting the pressure body Spreading secured. Then the support part is in one Rotational position in which the ends of the legs are in the area of radial recesses of the collar are in the direction of Axle of nozzle placed axially on the housing. Then it will Support part rotated 90 ° around the nozzle axis so that the ends the thigh reaches behind the collar. With this execution Example of support is the bayonet-type support secured to the housing so that the assembly the spray nozzle is simple.

Another advantageous development of execution form with the collar provides that the contact surface for the Ends of the legs on the collar towards the support member is designed to expand conically. Due to the conical shape contact surface is the release of the ends of the legs from the Kra conditions further improved when spreading the support part.

In the embodiment with the designed as a fork Support part, the pressure body can also be reached when the Trigger temperature melting body. This is at Spray nozzles, in which the part on which the An pressure body supported, not with the pressure body of the Housing detaches, not easily possible because of the nozzle escaping water cools the body so that the Melting process is interrupted and is close to the  Pressure element located in the nozzle opening the spread of the Spray mist obstructed.

The invention is based on the accompanying drawings are explained in more detail using an exemplary embodiment.

Show it

Fig. 1 shows a first embodiment of the spray nozzle OF INVENTION to the invention in the rest state in a partially sectioned side view,

Fig. 2 is a bottom view of the spray nozzle shown in FIG. 1 and

Fig. 3 shows the spray nozzle of FIG. 1 in the operating state in a partially sectioned side view,

Fig. 4 shows a second embodiment of the spray nozzle OF INVENTION to the invention in the rest state in a partially sectioned side view,

Fig. 5 is a bottom view of the spray nozzle according to Fig. 4,

Fig. 6 is a side view of the spray nozzle according to Fig. 4,

Fig. 7 is a side view of the spray nozzle of FIG. 4 upon release of the supporting part of the housing,

Fig. 8 a in the same representation as Fig. 4, a third embodiment of the spray nozzle according to the invention in the idle state and

Fig. 9 is a partial section IX-IX in Fig. 8.

The same components are the same in the figures Provide reference numerals.

The spray nozzle shown in Fig. 1 has a housing 1 with an external thread 2 for screwing the nozzle into a feed line, not shown. The housing 1 has a cylindrical inner wall 3 which merges into a conical inner wall 4 and opens into a nozzle opening 5 . The end 6 of the cylindrical inner wall 3 facing away from the nozzle opening 5 is provided with an internal thread 7 , into which a nozzle part 8 with an external thread 9 is screwed. The nozzle part 8 has at its end 10 facing away from the nozzle opening 5, a supply opening 11 through which water is supplied from the supply line to the spray nozzle. The nozzle part 8 has on its outside narrow, helical channels 12 , and between the nozzle part 8 and the cylindrical inner wall 3 or the conical inner wall 4 , a swirl chamber 13 is formed, which is connected to the nozzle opening 5 . At a coaxial to the nozzle opening 5 , annular region 14 of the housing 1 is a bracket 15 , which extends from the housing 1 away from the nozzle opening 5 , with an end formed at its end facing the housing 1 th annular region 16 and by screws , of which only one screw 17 is shown as an example, releasably connected to the housing 1 . In Darge shown in Fig. 1 idle state of the spray nozzle, the nozzle opening 5 is closed by a sealing body, the one sealing sleeve 18 and one in an annular groove 19 , which is formed on the nozzle opening 5 facing side of the sealing sleeve 18 , angeord Neten sealing ring 20 from has elastomeric material. On its side facing the nozzle opening 5 , the sealing sleeve 18 has a centering pin 21 which is coaxial with the annular groove 19 and extends into the nozzle opening 5 . On its side facing away from the nozzle opening 5 , the sealing sleeve 18 has a central bore 22 which extends away from the nozzle opening 5 into a substantially conical area 23 in which a contact surface 24 for a pressure member 25 is formed. The pressure body 25 is formed in this embodiment by a hollow body made of glass filled with alcohol. The end of the pressure element 25 facing the nozzle opening 11 is essentially conical and bears against the contact surface 24 of the sealing sleeve 18 . The end of the Andruckkör pers 25 facing away from the nozzle opening 5 is spherical. By in a Innenge 26 a bore 27 of the bracket 15 screwed screw 28 , the pressure body 25 facing end 29 has a spherical indentation 30 for abutment against the end of the pressure body 25 formed kuge lig, the pressure body 23 and the sealing body in the direction can be pretensioned on the nozzle opening 5 . It can be seen that with increasing screwing in of the set screw 28 into the inner thread 26 of the bore 27 of the pressure body 25 and the sealing sleeve 16 with elastic deformation of the sealing ring 20 further biased towards the nozzle opening 5 , so that in this way the nozzle opening 5 is tightly closed and an escape of water is prevented in the idle state of the spray nozzle.

From Fig. 2 it can be seen that the bracket 15 is narrow, so that a spray mist can form in the operating state of the spray nozzle, which extends over a wide range of the circumference of the spray nozzle. It is thus caused by the bracket 15 only a small spray shadow, which does not significantly impair the extinguishing effect of the spray nozzle.

When the ambient temperature rises, the alcohol contained in the pressure body 25 expands until the pressure body 25 yields due to bursting when the ambient temperature specified by the amount and expansion properties of the alcohol is reached. The result of this is that the sealing sleeve 18 with the sealing ring 20 is pressed out of the nozzle opening 5 under the pressure of the water in the spray nozzle and falls out. The spray nozzle thus changes to the operating state shown in FIG. 3, in which the nozzle opening 5 is open. The water flows through the narrow, helical channels 12 , is swirled in the swirling chamber 13 and emerges from the nozzle opening 5 , so that a spray is formed under the spray nozzle.

The spray generated in this way is due its small droplet size is good for fighting one Suitable fire, but only those in a fire  against spray nozzles, in their environment the temperature due to a fire the specified value has exceeded. Unnecessary water damage can thus be avoided casually avoided.

In FIG. 4, a second embodiment of he inventive spray nozzle is shown as comprising a fork with two legs 31, 32 formed support member 33. The free ends of the legs 31 , 32 are designed as hooks 34 , 35 which engage in a form-fitting manner behind a jump formed by a collar 36 on the housing 1 . A contact surface 37 for the hooks 34 , 35 on the collar 36 is designed to widen conically towards the support part 33 . The support part 33 is designed to be expandable, and the legs 31 , 32 are each movable in the direction of an arrow 38 , 39 , which symbolizes the direction of expansion.

The legs 31 , 32 are made of spring steel and thus form spring means that pretension the legs 31 , 32 in the expanded position in the rest position shown in FIG. 4. The legs 31 , 32 each have an inwardly directed tab 40 , 41 , each of which has a recess formed in the embodiment shown in FIG. 4 as an elongated hole 42 , 43 te te. In the rest position, the tabs 40 , 41 are arranged approximately parallel to one another. The tab 41 has at its free end one of the other tab 40 facing nose 44 , which ensures that the tabs 40 , 41 are arranged in the direction of the nozzle axis symbolized by a dash-dotted line 45 at a distance from one another.

In the rest position shown in FIG. 4, the pressure body 25 is supported with its end facing away from the nozzle opening 5 on the set screw 28 of the supporting part 33 and presses the sealing disk 20 against the housing 1 via the sealing sleeve 18 with its end facing the nozzle opening 5 , so that the nozzle opening 5 is tightly closed in the idle state. Thereby, the pressing body 25 43 of the tabs 40, 41 which thus engage behind the contact pressure body 25, so that the legs 31 are secured in the rest position against spreading 32 extends through the elongated holes 42.

Fig. 5 shows a view from below in Fig. 4 of the spray nozzle. It can be seen that the collar 36 on its circumference has two radial recesses formed in this embodiment by flattening conditions 47 , 48 , which are diametrically opposed and whose diametrical distance is the diametrical distance of the free ends of the legs 31 designed as hooks 35 , 36 , 32 corresponds. To assemble the spray nozzle, the legs 31 , 32 of the support member 33 are compressed and biased in this way. Then, the pressure member 25 from the free ends of the legs 31 is inserted through the long holes 32 fro 42, 43, to be the set screw 28 end facing the adjusting screw 28 comes to rest. Then the support member 33 with inserted pressure body 25 in a rotational position in which the hooks 34 , 35 are in the area of the flats 47 , 48 is placed axially on the housing 1 . Then the support member 33 is rotated on the housing 1 about the nozzle axis 45 by about 90 °, so that the hooks 34 , 35 engage the collar 36 of the housing 1 behind. In this way, the support member 33 is secured in the manner of a bayonet catch on the housing 1 , so that the assembly of the spray nozzle according to the invention in the manufacture or in a recovery after a fire is particularly easy.

Fig. 6 shows a side view of the spray nozzle at rest.

The mode of operation of this exemplary embodiment of the spray nozzle according to the invention is explained below with reference to FIG. 7. In the event of a fire, the temperature in the area of the spray nozzle increases until the pressure element 25 yields when a trigger temperature is reached. This has the consequence that the legs 31 , 32 with their tabs 40 , 41 no longer reach behind the pressure body 25 , so that the prestressed legs 31 , 32 move in the direction of the arrows 38 , 39 and the support part 33 spreads out. The fact that the recesses in the tabs 40 , 41 are formed as elongated holes 42 , 43 and by the distance in the direction of the Dü senachse the tabs 40 , 41 to each other ensures that the movement of the legs 31 , 32 and thus the Aufsprei zen Support part 33 is not hindered by remaining parts of the pressure body 25 .

Through the movement of the legs 31 , 32 in the direction of the arrows 38 , 39 , the hooks 34 , 35 come free from the collar 36 , so that the support part 33 detaches from the housing 1 and follows the spray nozzle in the installation position shown in FIG. 7 falls down. The release of the hooks 34 , 35 from the collar 36 is supported in that the contact surface 37 widens conically towards the support part 33 .

When the pressure body 25 yields, the sealing sleeve 18 is pushed outwards with the sealing ring 20 under the pressure of the water standing in the spray, so that the spray nozzle changes to the operating state. Characterized in that the support member 33 has released from the housing 1 when the pressure body 25 yields, the area in front of the spray nozzle is free, so that the spray mist can spread unhindered in front of the spray nozzle. There is thus no Sprühschat th, so that the extinguishing effect of the spray nozzle according to the invention is further improved in the embodiment shown in FIGS. 4 to 7 game.

In Fig. 8, a third embodiment of the spray nozzle according to the invention is shown, which differs from the exemplary embodiment according to FIG. 4 in that the pressure body 25 is not supported by a set screw, but by a spring, which in this exemplary embodiment plays through a leaf spring 49 is formed which is formed with the resilient legs 31 , 32 in one piece. The leaf spring 49 biases the pressure body 25 in the direction of the nozzle opening 5 ; Their spring force is such that the spray nozzle does not open under all pressure conditions in the feed line, but only in the event of a fire. In addition, the leaf spring compensates for 49 manufacturing tolerances. The pressure body 25 projects with its end facing away from the nozzle opening 11 into a recess 50 formed in the region of the free end of the leaf spring 49 .

FIG. 9 shows a section IX-IX in FIG. 8. It can be seen that the leaf spring 49 is with the legs 31, 32 of one piece and is Darge presented rest condition of the spray nozzle with its free end in such a way in the direction of the nozzle opening 5 bent in the in Fig. 9 that a nozzle opening 5 facing Part of the leaf spring 49 in which the recess 50 is formed is arranged at a distance from and approximately parallel to the part facing away from the nozzle opening 5 .

Claims (26)

1. spray nozzle for atomizing water in fire protection systems,
with a housing,
with a arranged in the housing Verwirbe treatment chamber and
with a nozzle opening connected to it,
marked by
a sealing body ( 18 , 20 ) which abuts the housing ( 1 ) from the outside and seals the nozzle opening ( 5 ), and
a at a trigger temperature yielding pressure body ( 25 ), which presses the sealing body ( 18 , 20 ) against the housing ( 1 ) and with its sealing body ( 18 , 20 ) end facing th at a part connected to the housing ( 1 ) supports. 2. Spray nozzle according to claim 1, characterized in that the pressure body ( 25 ) on an adjusting screw ( 28 ) is supported. 3. Spray nozzle according to claim 1, characterized in that the pressure body ( 25 ) is supported on a spring. 4. Spray nozzle according to claim 2, characterized in that the pressure body ( 25 ) at its the nozzle opening ( 5 ) abge facing end is spherical or conical for contact in a preferably spherical recess ( 30 ) of the adjusting screw ( 28 ). 5. Spray nozzle according to claim 1, characterized in that the pressure body ( 25 ) is substantially cylindrical ausgebil det. 6. Spray nozzle according to claim 1, characterized in that the pressure body ( 25 ) is formed by a hollow body made of glass or the like, which is at least partially filled with a heat-expanding or evaporating liquid, preferably alcohol, GE. 7. Spray nozzle according to claim 1, characterized in that the part connected to the housing ( 1 ) is a bracket ( 15 ) which extends from the housing ( 1 ) away from the nozzle opening ( 5 ). 8. Spray nozzle according to claim 7, characterized in that the bracket ( 15 ) is integrally formed with the housing ( 1 ). 9. Spray nozzle according to claim 7, characterized in that the bracket ( 15 ) is formed by flat struts, the Ra dial cross-section runs along the radial direction of propagation of the spray. 10. Spray nozzle according to claim 1, characterized in that the pressure body ( 25 ) is supported on a detachably connected to the housing ( 1 ) supporting part ( 33 ). 11. Spray nozzle according to claim 1, characterized in that the sealing body ( 18 ) on its side facing the nozzle opening ( 5 ) away from the nozzle opening ( 5 ) has an annular groove ( 19 ) in which a sealing ring ( 20 ) made of elastomeric Ma is arranged material. 12. Spray nozzle according to claim 11, characterized in that the sealing body ( 18 ) on its side facing the nozzle opening ( 5 ) facing a to the annular groove ( 19 ) coaxial centering pin ( 21 ) which projects into the nozzle opening ( 5 ). 13. Spray nozzle according to claim 1, characterized in that
that the pressure body ( 25 ) is supported on a support part ( 33 ) detachably connected to the housing ( 1 ),
that the support part ( 33 ) is designed as a fork with two legs ( 31 , 32 ) which are movable in the expansion direction,
that the ends of the legs ( 31 , 32 ) in a rest position radially engage projections on the housing ( 1 ),
that spring means are provided which bias the legs ( 31 , 32 ) in the spreading direction and
that the legs ( 31 , 32 ) have projections which engage behind the pressure body ( 25 ), such that the legs ( 31 , 32 ) are secured against spreading in the rest position. 14. Spray nozzle according to claim 13, characterized in that at least one of the legs ( 31 , 32 ) of the support part ( 33 ) is designed as a spring and thus forms the spring means. 15. Spray nozzle according to claim 14, characterized in that the leg or legs ( 31 , 32 ) consists or consist of spring steel. 16. Spray nozzle according to claim 13, characterized in that the projections of the legs ( 31 , 32 ) are each formed by an inwardly extending tab ( 40 , 41 ), each having a recess through which in the Ru helage the Pressure body ( 25 ) extends. 17. Spray nozzle according to claim 16, characterized in that the tabs ( 40 , 41 ) in the rest position in the direction of the nozzle axis ( 45 ) are arranged at a distance from one another. 18. Spray nozzle according to claim 17, characterized in that at least one of the tabs ( 41 ) has one of the other tab ( 40 ) facing nose ( 44 ) for securing a distance between the tabs ( 40 , 41 ). 19. Spray nozzle according to claim 16, characterized in that the tab ( 40 , 41 ) each forms a part with the leg ( 31 , 32 ). 20. Spray nozzle according to claim 3 and 15, characterized in that the spring is formed as a preferably with the resilient legs ( 31 , 32 ) consisting of a piece of leaf spring ( 49 ). 21. Spray nozzle according to claim 16, characterized in that the recesses are closed or open on the side. 22. Spray nozzle according to claim 16, characterized in that the recesses are expanded on their side facing away from the pressure body when they are in contact with the pressure body ( 25 ), in particular form elongated holes ( 42 , 43 ). 23. Spray nozzle according to claim 13, characterized in that the projections on the housing ( 1 ) by a collar ( 36 ) are gebil det. 24. Spray nozzle according to claim 23, characterized in that the collar ( 36 ) has on its circumference two radial recesses ( 47 , 48 ) which are diametrically opposite and whose diametrical distance is the diametrical distance of the free ends ( 34 , 35 ) of the legs ( 31 , 32 ) in the rest position. 25. Spray nozzle according to claim 23, characterized in that the contact surface ( 37 ) for the ends ( 34 , 35 ) of the legs ( 31 , 32 ) on the collar ( 36 ) to the support part ( 33 ) is conically widening. 26. Spray nozzle according to one of claims 13 to 25, characterized in that the pressure body ( 25 ) is a melting body when the triggering temperature is reached.